DateTime class Null safety

An instant in time, such as July 20, 1969, 8:18pm GMT.

DateTimes can represent time values that are at a distance of at most 100,000,000 days from epoch (1970-01-01 UTC): -271821-04-20 to 275760-09-13.

Create a DateTime object by using one of the constructors or by parsing a correctly formatted string, which complies with a subset of ISO 8601. Note: hours are specified between 0 and 23, as in a 24-hour clock.

For example:

final now = DateTime.now();
final berlinWallFell = DateTime.utc(1989, 11, 9);
final moonLanding = DateTime.parse('1969-07-20 20:18:04Z'); // 8:18pm

A DateTime object is anchored either in the UTC time zone or in the local time zone of the current computer when the object is created.

Once created, neither the value nor the time zone of a DateTime object may be changed.

You can use properties to get the individual units of a DateTime object.

print(berlinWallFell.year); // 1989
print(berlinWallFell.month); // 11
print(berlinWallFell.day); // 9
print(moonLanding.hour); // 20
print(moonLanding.minute); // 18

For convenience and readability, the DateTime class provides a constant for each day and month name - for example, august and friday. You can use these constants to improve code readability:

final berlinWallFell = DateTime.utc(1989, DateTime.november, 9);
print(DateTime.november); // 11
assert(berlinWallFell.month == DateTime.november);
assert(berlinWallFell.weekday == DateTime.thursday);

Day and month values begin at 1, and the week starts on Monday. That is, the constants january and monday are both 1.

Working with UTC and local time

A DateTime object is in the local time zone unless explicitly created in the UTC time zone. Use isUtc to determine whether a DateTime object is based in UTC.

final dDay = DateTime.utc(1944, 6, 6);
print(dDay.isUtc); // true

final dDayLocal = DateTime(1944, 6, 6);
print(dDayLocal.isUtc); // false

Use the methods toLocal and toUtc to get the equivalent date/time value specified in the other time zone.

final localDay = dDay.toLocal(); // e.g. 1944-06-06 02:00:00.000
print(localDay.isUtc); // false

final utcFromLocal = localDay.toUtc(); // 1944-06-06 00:00:00.000Z
print(utcFromLocal.isUtc); // true

Use timeZoneName to get an abbreviated name of the time zone for the DateTime object.

print(dDay.timeZoneName); // UTC
print(localDay.timeZoneName); // e.g. EET

To find the difference between UTC and the time zone of a DateTime object call timeZoneOffset.

print(dDay.timeZoneOffset); // 0:00:00.000000
print(localDay.timeZoneOffset); // e.g. 2:00:00.000000

Comparing DateTime objects

The DateTime class contains methods for comparing DateTimes chronologically, such as isAfter, isBefore, and isAtSameMomentAs.

print(berlinWallFell.isAfter(moonLanding)); // true
print(berlinWallFell.isBefore(moonLanding)); // false
print(dDay.isAtSameMomentAs(localDay)); // true

Using DateTime with Duration

Use the add and subtract methods with a Duration object to create a DateTime object based on another. For example, to find the point in time that is 36 hours after now, you can write:

final now = DateTime.now();
final later = now.add(const Duration(hours: 36));

To find out how much time is between two DateTime objects use difference, which returns a Duration object:

final difference = berlinWallFell.difference(moonLanding);
print(difference.inDays); // 7416

The difference between two dates in different time zones is just the number of nanoseconds between the two points in time. It doesn't take calendar days into account. That means that the difference between two midnights in local time may be less than 24 hours times the number of days between them, if there is a daylight saving change in between. If the difference above is calculated using Australian local time, the difference is 7415 days and 23 hours, which is only 7415 whole days as reported by inDays.

Other resources

  • See Duration to represent a span of time.
  • See Stopwatch to measure timespans.
  • The DateTime class does not provide internationalization. To internationalize your code, use the intl package.
Implemented types
Available Extensions

Constructors

DateTime(int year, [int month = 1, int day = 1, int hour = 0, int minute = 0, int second = 0, int millisecond = 0, int microsecond = 0])
Constructs a DateTime instance specified in the local time zone.
DateTime.fromMicrosecondsSinceEpoch(int microsecondsSinceEpoch, {bool isUtc = false})
Constructs a new DateTime instance with the given microsecondsSinceEpoch.
DateTime.fromMillisecondsSinceEpoch(int millisecondsSinceEpoch, {bool isUtc = false})
Constructs a new DateTime instance with the given millisecondsSinceEpoch.
DateTime.now()
Constructs a DateTime instance with current date and time in the local time zone.
DateTime.utc(int year, [int month = 1, int day = 1, int hour = 0, int minute = 0, int second = 0, int millisecond = 0, int microsecond = 0])
Constructs a DateTime instance specified in the UTC time zone.

Properties

day int
The day of the month [1..31].
read-only
hashCode int
The hash code for this object.
read-onlyoverride
hour int
The hour of the day, expressed as in a 24-hour clock [0..23].
read-only
isUtc bool
True if this DateTime is set to UTC time.
final
microsecond int
The microsecond [0...999].
read-only
microsecondsSinceEpoch int
The number of microseconds since the "Unix epoch" 1970-01-01T00:00:00Z (UTC).
read-only
millisecond int
The millisecond [0...999].
read-only
millisecondsSinceEpoch int
The number of milliseconds since the "Unix epoch" 1970-01-01T00:00:00Z (UTC).
read-only
minute int
The minute [0...59].
read-only
month int
The month [1..12].
read-only
runtimeType Type
A representation of the runtime type of the object.
read-onlyinherited
second int
The second [0...59].
read-only
timeZoneName String
The time zone name.
read-only
timeZoneOffset Duration
The time zone offset, which is the difference between local time and UTC.
read-only
weekday int
The day of the week monday..sunday.
read-only
year int
The year.
read-only

Methods

add(Duration duration) DateTime
Returns a new DateTime instance with duration added to this.
compareTo(DateTime other) int
Compares this DateTime object to other, returning zero if the values are equal.
override
difference(DateTime other) Duration
Returns a Duration with the difference when subtracting other from this.
isAfter(DateTime other) bool
Returns true if this occurs after other.
isAtSameMomentAs(DateTime other) bool
Returns true if this occurs at the same moment as other.
isBefore(DateTime other) bool
Returns true if this occurs before other.
noSuchMethod(Invocation invocation) → dynamic
Invoked when a non-existent method or property is accessed.
inherited
subtract(Duration duration) DateTime
Returns a new DateTime instance with duration subtracted from this.
toIso8601String() String
Returns an ISO-8601 full-precision extended format representation.
toLocal() DateTime
Returns this DateTime value in the local time zone.
toString() String
Returns a human-readable string for this instance.
override
toUtc() DateTime
Returns this DateTime value in the UTC time zone.

Operators

operator ==(Object other) bool
Returns true if other is a DateTime at the same moment and in the same time zone (UTC or local).
override

Static Methods

parse(String formattedString) DateTime
Constructs a new DateTime instance based on formattedString.
tryParse(String formattedString) DateTime?
Constructs a new DateTime instance based on formattedString.

Constants

april → const int
4
august → const int
8
daysPerWeek → const int
7
december → const int
12
february → const int
2
friday → const int
5
january → const int
1
july → const int
7
june → const int
6
march → const int
3
may → const int
5
monday → const int
1
monthsPerYear → const int
12
november → const int
11
october → const int
10
saturday → const int
6
september → const int
9
sunday → const int
7
thursday → const int
4
tuesday → const int
2
wednesday → const int
3